25-year retrospective longitudinal study on seasonal allergic rhinitis associations with air temperature in general practice

Due to climate change, air temperature in the Netherlands has gradually increased. Higher temperatures lead to longer pollen seasons. Possible relations between air temperature and increased impact of seasonal allergic rhinitis (SAR) in general practice have not been investigated yet. We explored tr...

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Bibliographic Details
Published in:NPJ primary care respiratory medicine 2022-12, Vol.32 (1), p.54-6, Article 54
Main Authors: Schreurs, Wendy, Schermer, Tjard Ronald Jacob, Akkermans, Reinier Peter, Bischoff, Erik Wiely Maria Anton, Luijks, Hilde Dymphna
Format: Article
Language:English
Subjects:
692/308
692/699/1785
692/700/478
Climate change
Family Practice
Hay fever
Humans
Internal Medicine
Longitudinal Studies
Medicine
Medicine & Public Health
Netherlands - epidemiology
Pneumology/Respiratory System
Primary Care Medicine
Retrospective Studies
Rhinitis
Rhinitis, Allergic, Seasonal - epidemiology
Temperature
Thoracic Surgery
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Summary:Due to climate change, air temperature in the Netherlands has gradually increased. Higher temperatures lead to longer pollen seasons. Possible relations between air temperature and increased impact of seasonal allergic rhinitis (SAR) in general practice have not been investigated yet. We explored trends in timing of frequent seasonal allergic rhinitis presentation to general practitioners (GPs) over 25 years and explored associations with air temperature. We performed a retrospective exploratory longitudinal study with data from our Family Medicine Network (1995–2019), including all SAR patients and their GP-encounters per week. We determined patients’ GP-consultation frequency. Every year we identified seasonal periods with substantial increase in SAR related encounters: peak-periods. We determined start date and duration of the peak-period and assessed associations with air temperature in the beginning and throughout the year, respectively. The peak-period duration increased by a mean of 1.3 days (95% CI 0.23–2.45, P  = 0.02) per year throughout the study period. Air temperature between February and July showed a statistically significant association with peak-period duration. We could not observe direct effects of warmer years on the start of peak-periods within distinct years ( P  = 0.06). SAR patients’ contact frequency slightly increased by 0.01 contacts per year (95% CI 0.002–0.017, P  = 0.015). These longitudinal findings may help to facilitate further research on the impact of climate change, and raise awareness of the tangible impact of climate change in general practice.
ISSN:2055-1010
2055-1010
DOI:10.1038/s41533-022-00319-2